KR20050010467A - Objective lens driving device - Google Patents

Abstract

PURPOSE: A device for driving an objective lens is provided to locate a directional center of magnets higher than a driving center of a lens holder, thereby reducing an inclination angle change for a shift of the lens holder, consequently inclination angle margins can be bigger while reducing a defective proportion of an inclination angle. CONSTITUTION: An objective lens driving device comprises plural coils(23,24), a lens holder(22) movably supported by a suspension wire, and magnets(27) for applying driving forces to the lens holder(22). A directional center(Mc) of the magnets(27) is located higher than a driving center(Dc) of the lens holder(22). The directional center(Mc) of the magnets(27) is located higher than either a CD reference position or a DVD reference position of the lens holder(22).

Description

Objective lens driving device {OBJECTIVE LENS DRIVING DEVICE}

The present invention relates to an objective lens driving apparatus included in an optical pickup for an optical disc drive.

An optical disc drive includes information recorded on an optical disc (CD, CD-ROM, CD-R, CD-RW, DVD-ROM, DVD + R, DVD-R, DVD-RAM, DVD + RW, DVD-RW, etc.) It is a device for reading or writing information. This type of optical disc drive includes an optical pickup for irradiating laser light to the optical disc and detecting the reflected light in order to realize reading of information from the optical disc or writing of information to the optical disc.

In general, an optical pickup includes a laser light source for emitting a laser beam, and an optical system for guiding the emitted laser beam to an optical disk while guiding the reflected light to a photodetector. The optical system includes an objective lens disposed to face the optical disk.

The objective lens used for the optical pickup needs to be precisely positioned with respect to the focus direction along the optical axis and the track direction along the radial direction of the optical disk so as to focus the laser light accurately on the recording surface (track) of the optical disk which is rotationally driven. . Moreover, in recent years, as the recording density is improved, the necessity of eliminating or suppressing the influence of the warping of the optical disc is increasing, and the objective lens also needs to be tilted controlled.

In order to enable focusing control, tracking control and tilting control, the objective lens driving device elastically supports the lens holder holding the objective lens with a plurality of suspension wires. In addition, a focusing coil, a tracking coil and a tilting coil are wound or attached to the lens holder, and these coils are partially positioned in the gap of the magnetic circuit. In such a configuration, by controlling the current flowing through each coil, the objective lens driving device can finely adjust the position and inclination of the objective lens (see Patent Document 1, for example).

Hereinafter, a conventional objective lens driving apparatus will be described with reference to FIG. 1.

1 is a longitudinal sectional view of a conventional objective lens driving device. The illustrated objective lens driving device includes an objective lens 11, a lens holder 12, a focusing coil 13, a tracking coil 14, a tilting coil 15, a yoke 16, a magnet 17, and a suspension wire. 18 and a base 19 are provided.

The objective lens 11 is disposed on the image surface side of the lens holder 12. The focusing coil 13 is wound around the side of the lens holder 12, and the tracking coil 14 and the tilting coil 15 are attached to the side of the lens holder 12.

One end of each of the four (only two of them) suspension wires 18 is fixed to the lens holder 12. In addition, the other end of each suspension wire 18 is fixed to the base 19. As a result, the lens holder 12 is movable in the focusing direction (up and down direction in the drawing) and the tracking direction (up and down direction in the drawing), and the radial direction of the optical disk (circumferential direction of the rotating shaft extending in the left and right direction in the drawing). It is elastically supported by tiltable).

The combination of the two sets by the yoke 16 and the magnet 17 forms a magnetic circuit, and in each magnetic gap, a part of each of the focusing coil 13, the tracking coil 14 and the tilting coil 15 is formed. It is arranged to be located.

In the above configuration, when the appropriate current is supplied to the focusing coil 13, the tracking coil 14 and the tilting coil 15, respectively, the lens holder 12 (and the objective lens 11) is moved and It is possible to tilt and / or tilt the light beam accurately on the track of the recording surface of the optical disc.

(Patent Document 1) Japanese Unexamined Patent Application Publication No. 2001-93177 (Fig. 7, Fig. 8)

As described above, the lens holder is cantilevered by four suspension wires. For this reason, when the focusing shift by focusing control and the tracking shift by tracking control generate | occur | produce simultaneously, the force which twists a suspension wire (radial direction) generate | occur | produces. This force causes the lens holder (ie, the objective lens) to be inclined with respect to the optical disk.

The tilting coil can also be used to correct this inclination, but cannot be corrected if the inclination (change in inclination) is large. Therefore, the magnet is arranged so that the center of the height direction coincides with the driving center (neutral position) of the lens holder so that the shift of the lens holder does not incline greatly in a specific direction.

By the way, there is a thing called two wavelength correspondence type in optical pickup which can cope with both CD and DVD. In the two-wavelength-compatible optical pickup, when the optical disk is a CD or a DVD, the position of the focusing direction of the objective lens must be changed. That is, the objective lens driving apparatus used for the two-wavelength-compatible optical pickup must have two reference positions (driving reference) for CD and DVD. Here, when one reference position is configured to coincide with the driving center of the lens holder, the other reference position is greatly separated from the driving center, and the displacement caused by the focusing control and the tracking control at that time becomes large. That is, when the position away from the drive center is set as the reference position, there is a fear that a large radial direction force exceeding the allowable range may occur when the shift of the lens holder is large. Therefore, in the objective lens driving apparatus used for the conventional two-wavelength optical pickup, the driving center of the lens holder is positioned between the CD reference position and the DVD reference position. Specifically, the reference position for the CD is positioned near the optical disc from the drive center, and the reference position for the DVD is positioned away from the optical disc from the drive center.

However, in the objective lens driving apparatus used for the conventional two-wavelength-type optical pickup, when the lens holder is shifted by a predetermined amount due to manufacturing variation, there is a change in the tilt angle over the allowable range. That is, the conventional objective lens driving apparatus has a problem that the margin related to the change in the inclination is small.

Then, an object of this invention is to provide the objective lens drive apparatus which enlarged the margin regarding a change of angle, and aims at reducing the angle of defective defective products.

1 is a cross-sectional view of a conventional objective lens driving device.

Fig. 2 is a perspective view showing a state where the top cover of the objective lens drive device according to the embodiment of the present invention is removed.

3 is an exploded perspective view of the lens holder used in the objective lens driving device of FIG.

4 is a perspective view illustrating a state in which a base is removed from the objective lens driving device of FIG. 2.

5 is a perspective view illustrating a positional relationship between each coil and a magnet.

6 is a plan view showing the positional relationship between the coils and the magnets.

7 is a side view illustrating the positional relationship of each coil and magnet.

Fig. 8 is a side view showing the positional relationship of each coil and magnet in the objective lens driving device used for measuring the tilting characteristic.

Fig. 9 is a diagram for explaining the relationship between the CD reference position, the DVD reference position and the neutral position when the tilting characteristic is present.

It is a figure for demonstrating the displacement of the lens holder at the time of the measurement of a tilt characteristic.

It is a graph which shows the measurement result of the inclination characteristic.

(Explanation of the sign)

11, 21 objective lens 12, 22 lens holder

13, 23 focusing coil 14, 24 tracking coil

15, 25 tilting coil 16, 26 yoke

17, 27 Magnet 18, 28 Suspension Wire

19, 29 Base 31 Tilting coil winding frame

41 leader line 71 optical disc

The present invention provides a lens holder 22 in which a plurality of coils 23, 24, 25 are provided and supported by a suspension wire 28 so as to be able to swing, and an electronic action generated between the coils. In the objective lens driving apparatus provided with the magnet 27 for giving the driving force, the main characteristic of the magnet is that the height direction center Mc of the magnet is located above the driving center Dc of the lens holder.

In the objective lens driving device, the center of the magnet height direction is located above any of the CD reference position and the DVD reference position of the lens holder.

In addition, the code | symbol in the said parenthesis is only what was attached in order to make understanding of this invention easy, and does not limit this invention at all.

(The best form to carry out invention)

EMBODIMENT OF THE INVENTION Hereinafter, one Embodiment of this invention is described with reference to drawings.

2 is a perspective view showing a state where the top cover of the objective lens drive device according to the embodiment of the present invention is removed.

The illustrated lens holder driving device includes a lens holder 22 holding the objective lens 21, a focusing coil 23, a tracking coil 24, a tilting coil 25 (see FIG. 5), a yoke 26, The magnet 27, the suspension wire 28, and the base 29 are provided.

In addition, the tilting coil 25 is located inside the focusing coil 23. In detail, the lens holder 22 is comprised by the two members which can be divided up and down like FIG. 3, and the tilting coil 25 is four tilting coil winding part 31 formed in the one member. Wound on). The focusing coil 23 is wound around the four tilting coil winding frames 31 on which the tilting coils are wound as one focusing coil winding frame.

FIG. 4 shows a state where the base 29 is removed from the lens holder driving device of FIG. 2.

As understood from FIG. 4, the lens holder 22 is fixed to one end side of the four suspension wires 28. By fixing the other end side of the suspension wire 28 to the base 29, the lens holder 22 is cantileveredly supported with respect to the base 29.

The focusing coil 23, the tracking coil 24, and the tilting coil 25 are wound around the lens holder 22, and the suspension wires 28 are respectively provided at the ends of the focusing coil 23 and the tracking coil 24. It is electrically connected. Moreover, the lead wire 41 arrange | positioned in parallel with the suspension wire 28 is electrically connected at the both ends of the tilting coil 25, respectively.

The yoke 26 includes a flat plate portion 261 fixed to the base 29, a bottom plate portion 262 extending perpendicularly to the flat plate portion 261 from an edge of the flat plate portion 261, and a bottom plate portion ( It has a U-shaped plate portion 263 extending from the edge of 262 to be parallel to the flat plate portion 261. Two arms of the U-shaped plate member 263 are inserted into the rectangular holes of the lens holder 22, respectively.

The magnet 27 is fixed on the surface of the flat plate portion 261 of the yoke 26 opposite to the U-shaped plate portion 263.

This objective lens driving device is mounted on an optical base of an optical disk driver (not shown) to constitute an optical pickup. The optical base is attached to the guide bar so as to be movable along the radial direction (tracking direction Tr) of the optical disk introduced into the optical disk apparatus. In addition, a laser diode, a photodetector, and a predetermined optical system are attached to the optical base, and the laser light from the laser diode is irradiated to the optical disc through the objective lens 21, and the reflected light is guided to the photodetector. .

By appropriately controlling the current flowing through the focusing coil 23, the tracking coil 24, and the tilting coil 25 wound around the lens holder 22, the lens holder 22 is the yoke 26 and the magnet 27. On the basis of the relation with the magnetic field produced, tilt in the tracking direction Tr (rotate the axis parallel to the tangent direction Tg as the rotation axis), move along the tracking direction Tr, or focus Move along direction F.

Next, the arrangement of the lens holder 22 (or the coils 23, 24 and 25) and the magnet 27 (and the yoke 26) will be described in detail.

5 shows the positional relationship between the coils 23, 24, and 25 and the magnet 27. As shown in FIG. This is shown in a plan view, as shown in FIG. In addition, it is as shown in FIG. In addition, the position of each coil in FIGS. 5-7 is a position when the lens holder 22 is in a neutral position (position when electric current does not flow in the whole coil).

As understood from FIG. 6, the lens holder 22 and the magnet 27 are arranged so that the center of the tracking direction (up and down direction in the drawing) of the lens holder 22 coincides with the same direction center of the magnet 27. have. At this time, the tracking direction end surface of the magnet 27 coincides with the center of the tracking coil 24 with respect to the tracking direction, respectively.

As understood from FIG. 7, the lens holder 22 and the magnet 27 have a height H (focusing direction) of the magnet Hc rather than the driving center Dc of the lens holder 22 (Yes). For example, it is arrange | positioned so that it may be located upward (optical disk 71 side) by 0.6 mm, but with a magnet height of 4.2 mm and a magnet thickness of 2.1 mm). If the objective lens 21 is the same as the conventional one, the magnet 27 is arranged closer to the optical disc 71 than in the conventional case.

Next, the reason why the height direction center of the magnet 27 is made higher by H than the drive center of the lens holder 22 is explained.

As shown in Fig. 8, the objective lens driving device in which the center of the height direction of the magnet coincides with the driving center of the lens holder 22 was prepared as in the prior art, and the tilting characteristics thereof were measured.

As shown in FIG. 9, the CD reference position and the DVD reference position are determined based on the neutral position (drive center) of the lens holder, and the lens holder 22 is shown in FIG. 10 from each normative position. ) Was measured by measuring the tilt angle at the time of shifting with an autocollimeter. The result is shown in FIG.

In FIG. 11, the range surrounded by the solid line 111 is a tilt allowable range when the optical disc is a DVD, and the range surrounded by the solid line 112 is a tilt allowable range when the optical disc is a CD.

As understood from FIG. 11, the inclination is smaller when the focus shift is positive, but larger when the focus shift is negative, and smaller when the focus shift is negative. That is, the inclination is not symmetrical when the lens holder 22 is displaced upward from the neutral position and downward. It is considered that this is because the yoke 26 does not exist above the magnet 27 and the coils 23, 24, and 25.

In any case, it can be understood from the graph of FIG. 11 that the margin for tilting becomes larger when the CD reference position and the DVD reference position are lowered. Thus, in the present embodiment, by increasing the position of the magnet 27, an effect equivalent to lowering the CD reference position and the DVD reference position is obtained.

If the center of the height direction of the magnet 27 is higher than the drive center of the lens holder 22, the effect of the present invention is obtained, but in order to make the incidence of inclination defect due to manufacturing variation or the like almost zero, it is necessary to be 0.5 mm or more. . In addition, if the position of the magnet 27 is raised too much, even if the focus shift is negative, the angle of inclination gradually increases as the focus shift becomes large. There is a need.

For the above reason, in the objective lens driving apparatus according to the present embodiment, the height direction center of the magnet is made 0.6 mm higher than the driving center of the lens holder 22. Moreover, the drive center (neutral position) of the lens holder 22 is set as the reference position for DVD. The CD reference position is 0.36 mm above the DVD reference position and is located below the center of the height direction of the magnet. By doing in this way, in the objective lens drive apparatus which concerns on this embodiment, generation | occurrence | production of the angle of inferior goods by a manufacturing deviation etc. can be almost eliminated.

According to the present invention, since the center of the height direction of the magnet is positioned above the driving center of the lens holder, the change in the tilt angle with respect to the shift of the lens holder can be made smaller than the conventional one. As a result, the margin regarding the inclination can be increased, and the inferior defective product rate at the time of manufacture can be reduced.

Claims (4)

In the objective lens driving device having a lens holder provided with a plurality of coils and supported by a suspension wire so as to be able to swing, and a magnet which gives a driving force to the lens holder by an electronic action generated between the coils, The center of the height direction of the magnet is located above the drive center of the lens holder, the objective lens drive device. The objective lens driving device according to claim 1, wherein the height direction center of the magnet is located above both the CD reference position and the DVD reference position of the lens holder. 3. The objective lens drive device according to claim 2, wherein the reference position for the DVD coincides with the driving center of the lens holder. The objective lens drive device according to claim 1, 2 or 3, wherein a distance between the center of the magnet height direction and the lens holder driving center is set to 0.5 to 0.7 mm.